Chinese cabbage [Brassica rapa L. subsp. pekinensis (Lour.) Hanelt] is a major leafy vegetable crop grown in China and eastern Asia (Fordham and Hadley 2003). In December 2018, black leg symptoms were observed on of "Qingza No.3" of Chinese cabbage during harvest, Chibi (29°46'37.38''N, 114°05'6.88''E), Hubei, China. Symptoms were first noted in late Nov. as black spots on leaf petioles and basal stems. Then, black spots enlarged as oval or irregular-shaped grayish lesions. Finally, lesions enlarged and coalesced with black pycnidia were observed, and some diseased leaves became blighted. The disease incidence was about 80% in three fields surveyed (~2 ha in total). Diseased plant tissues were surface-sterilized, and incubated on potato dextrose agar (PDA) plates at 20°C for 4 days. Three fungal isolates, namely EP9-19, EP9-22 and EP9-26, were obtained from five of the diseased samples; all produced fluffy, white aerial mycelia and a yellow pigment on PDA. After 14 days, black-brown and globose pycnidia were was shown to be the causal agent of blackleg on Chinese cabbage in China. We believe that this disease has historically often been misidentified as 'anthracnose' by local famers. The threat from L. biglobosa to the production of Chinese cabbage has been assessed. This accurate identification of the causal pathogen is a critical first step towards the development of disease management strategies.Wheat powdery mildew, caused by Blumeria graminis f. sp. tritici, is a devastating disease that threatens yield and quality. Host resistance is considered the most effective and preferred means to control this disease. Wheat landrace Duanganmang (DGM) showed high resistance or near immunity to Blumeria graminis f. sp. tritici mixture from Henan Province, China. DGM was crossed with highly susceptible Chinese wheat landrace Huixianhong (HXH) and cultivar 'Shimai 15' (SM15) to produce genetic populations. The resistance of DGM to Blumeria graminis f. sp. tritici isolate E09 was shown to be controlled by a single dominant Mendelian factor, tentatively designated PmDGM. Marker analysis and 55K single nucleotide polymorphism (SNP) array scanning showed that this gene was positioned in the Pm5 interval (2.4 cM or 1.61 Mb) flanked by Xhenu099 and Xmp1158 in the Chinese Spring reference genome. Homology-based cloning and sequence analysis demonstrated that DGM has the identical NLR gene (Pm5e) and RXL gene reported in Fuzhuang 30 (FZ30), conferring and modifying powdery mildew resistance, respectively. However, based on the different reaction patterns to the Blumeria graminis f. sp. tritici isolate B15 between DGM and FZ30, the authors speculate that DGM may have two tightly linked genes that could not be separated in the current mapping population, one of which is PmDGM and the other being Pm5e. Hence, this study provides a valuable resistance resource for improvement of powdery mildew resistance.Plectranthus amboinicus, commonly known as Gwo ten in the French West Indies (Martinique), is a semi-succulent perennial plant of the Lamiaceae family. This aromatic plant wich is widespread naturally throughout the tropics is of economic importance because of the therapeutic and nutritional properties attributed to its natural phytochemical compounds wich are highly valued in the pharmaceutical industry. In March 2019, wilted P. https://www.selleckchem.com/products/b102-parp-hdac-in-1.html amboinicus plants intercropped with tomato plants (cv. Heatmaster) in order to reduce the insect-pest damages on tomato, were observed in a field located at the CIRAD experimental station in Lamentin, Martinique (14.663194 N, -60.999167 W). Average disease incidence of 65.74% was recorded on P. amboinicus, in 3 plots with an area of 22.04 m2. The initial symptoms observed were irregular, black, necrotic lesions on leaves. After 10 days, plants wilted and black stripes were observed on stems. Within 4 weeks, more than 50% of plants were fully wilted. Longitudinal stem sections of the lted. The tomato plants started wilting 5 days after inoculation with 62% of wilted plants within four weeks. R. solanacearum was recovered from all symptomatic plants on modified SMSA medium. No symptoms were observed and no R. solanacearum strains were isolated from negative controls plants. To our knowledge, this is the first report of R. solanacearum causing bacterial wilt on Gwo ten (P. amboinicus) in Martinique. The importance of this discovery lies in the reporting of an additional host for R. solanacearum, which can be associated with other crops as tomato crop in order to reduce the abundance of insect-pests. Further studies need to be conducted to assess the precise distribution of bacterial wilt disease on P. amboinicus in Martinique and to develop a plan of action avoiding its association with R. solanacearum host crops as tomato for reducing epidemic risk.Apricot vein clearing-associated virus is the type species of genus Prunevirus, family Betaflexiviridae. The virus was first discovered from an Italian apricot tree (Prunus armeniaca) showing leaf vein clearing and mottling symptoms (Elbeaino et al. 2014). Since then, apricot vein clearing-associated virus (AVCaV) has been reported in symptomatic and asymptomatic plants from other countries (Marais et al. 2015; Kinoti et al. 2017; Kubaa et al. 2014). In 2018, a domestic selection of a flowering apricot (P. mume cv. Peggy Clarke) (PC01) with no discernible foliar virus-like symptoms was received for inclusion in the Foundation Plant Services (UC-Davis) collection. The plant originated from a private Prunus collection located in California. Total nucleic acids (TNA) were isolated from PC01 leaves using MagMax Plant RNA Isolation Kit (Thermo Fisher Scientific). The TNA were analyzed for a panel of 15 Prunus-infecting viruses by reverse-transcription quantitative PCR (RT-qPCR) (Diaz-Lara et al. 2020). In additionrepresent the first report of AVCaV in California, USA. Furthermore, mechanical transmission of an AVCaV isolate infecting flowering apricot to herbaceous hosts was confirmed. Field surveys and biological studies are underway to determine the prevalence of AVCaV in commercial orchards and assess its effect on tree performance.